CN216769952U

CN216769952U - Fungus waste regeneration treatment production line

Info

Publication number: CN216769952U
Application number: CN202220005921.7U
Authority: CN
Inventors: 李丙松
Original assignee: Lianyungang Yunge Mechanical Equipment Co ltd
Current assignee: Lianyungang Yunge Mechanical Equipment Co ltd
Priority date: 2022-01-04
Filing date: 2022-01-04
Publication date: 2022-06-17
Anticipated expiration: 2032-01-04

Abstract

The application relates to the technical field of waste recovery, especially, relate to a fungus class waste material regeneration treatment production line, its technical scheme is: comprises a waste storage mechanism, a waste conveying mechanism, a waste drying mechanism and a waste treatment mechanism; the waste storage mechanism comprises a waste storage bin and a waste conveying piece, and a waste crushing piece is arranged in the waste storage bin; the waste material conveying mechanism comprises a waste material conveying frame, a waste material conveying and drying belt and a waste material conveying motor, the waste material drying mechanism comprises a drying box body, a drying piece is arranged in the drying box body, the drying piece comprises a heating element, a drying fan and a drying pipe, the waste material processing mechanism comprises an automatic material turning piece and a waste material automatic rolling piece, the automatic material turning piece comprises a material turning frame body and a material turning rod, and the waste material automatic rolling piece comprises a material turning slope; this application has automatically to waste material soil drying process to adopt the multi-purpose energy to dry, have automatic stirring operation simultaneously, improve the technological effect of whole automation ability.

Description

Fungus waste regeneration treatment production line

Technical Field

The utility model relates to the technical field of waste recovery, in particular to a fungus waste regeneration treatment production line.

Background

The fungi is a plant which does not contain chlorophyll and can not carry out photosynthesis, does not have the differentiation of roots, stems and leaves, and does not contain photosynthetic pigments such as chlorophyll (except a few photosynthetic bacteria). Nowadays, more and more fungi enter dining tables, and many fungi need to be cultivated artificially to maintain huge market demands.

Fungus plant is picked after maturating, but fungus plant's root system will be stayed in soil, current way is to directly turning over soil, then plant new fungus plant, but original root system can rot in the soil, and then seriously influence the growth of new fungus, consequently will have the waste recovery of root system and reprocess, make it become nutritive soil, but waste material soil is after retrieving, because contain a large amount of moisture in the soil, need dry to soil, but at present there is not the technique that tangible is dried to waste material soil in the market yet, consequently need for a fungus waste material regeneration treatment production line urgently.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a bacteria waste regeneration treatment production line.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

a fungus waste regeneration treatment production line comprises a waste storage mechanism, a waste conveying mechanism, a waste drying mechanism and a waste treatment mechanism;

the waste material storage mechanism is used for temporarily storing recycled waste material soil, the waste material storage mechanism comprises a waste material storage bin, the waste material storage mechanism further comprises a waste material conveying piece arranged at the bottom of the waste material storage bin, and a waste material crushing piece for pre-scattering waste materials is arranged in the waste material storage bin;

the waste conveying mechanism comprises a waste conveying frame, a waste conveying and drying belt and a waste conveying motor, and the waste conveying piece is used for conveying waste soil onto the waste conveying and drying belt;

the waste material drying mechanism comprises a drying box body arranged on one side of a waste material conveying frame, a drying piece used for generating drying gas is arranged in the drying box body, the drying piece comprises a heating element arranged in the drying box body and a drying fan arranged in the drying box body, a drying pipe is arranged on the side wall of the drying box body, and a drying hole for the drying pipe to penetrate through is formed in the side wall of the waste material conveying frame;

the waste material processing mechanism includes that automatic stirring spare and waste material are automatic to be rolled, automatic stirring spare is including sliding the stirring support body that sets up on waste material conveying frame, still including setting up the stirring pole on the stirring support body, the automatic piece that rolls of waste material includes the stirring slope.

Preferably, be provided with the regulating part that drives the turn-down lever and adjust from top to bottom on the turn-down support body, the regulating part includes the regulation pole that the level set up, the turn-down lever is provided with a plurality ofly, and is a plurality of the turn-down lever is fixed to be set up on adjusting the pole, the regulating part is still including driving the regulation motor that the pole reciprocated.

Preferably, the turning frame body is further provided with a moving member for driving the turning frame body to move, the moving member comprises a moving motor and a pulley rotatably arranged on the inner wall of the turning frame body, the moving motor is used for driving the pulley to rotate, and sliding rails for the pulley to roll are arranged on two sides of the waste conveying frame in the length direction;

and a material turning shovel is fixedly arranged at the bottom of the material turning rod.

Preferably, the waste material conveying frame includes preceding stage conveying frame and back level conveying frame, the stirring slope sets up the input at back level conveying frame, the automatic piece that rolls of waste material is still including setting up the stirring roller in preceding stage conveying frame bottom, waste material conveying drying belt includes preceding stage conveyer belt and back level conveyer belt, the back level conveyer belt sets up on the stirring roller, preceding stage conveying frame is located same water flat line with back level conveying frame top.

Preferably, be equipped with on the waste material conveying drying belt and carry out the piece of evenly spreading the processing to waste material soil, evenly spread the piece including evenly spreading the storehouse, evenly spread the storehouse and be provided with evenly spreading the roller, evenly spread the storehouse and set up at waste material conveying frame top, evenly spread the piece still including setting up the motor of evenly spreading in evenly spreading the storehouse.

Preferably, the outer side wall of the uniform spreading roller is provided with a uniform spreading handle, the bottom of the uniform spreading bin is provided with a discharge port, uniformly distributed uniform spreading teeth are arranged at the bottom of the discharge port, and the uniform spreading teeth are arranged at the top of the waste conveying and drying belt.

Preferably, the waste conveying part comprises a waste conveying belt and a support frame arranged at the bottom of the waste conveying belt, and the waste conveying part further comprises a motor for driving the waste conveying belt.

Preferably, the waste material crushing piece includes that a plurality of rotations set up the crushing roller in storing the storehouse, and is a plurality of all be provided with broken axle piece on the crushing roller, the waste material is broken still including driving a plurality of crushing roller pivoted broken motors.

Preferably, the drying pipes are arranged in plurality, the outer side wall of the drying box body is also provided with a drying channel for placing the drying pipes, and the drying channel is communicated with the waste material conveying frame and the drying box body;

the drying box is internally provided with a heating assembly, the heating assembly comprises an oil pipe arranged in the drying pipeline in a penetrating manner, the heating assembly also comprises a hot oil box arranged in the drying box, and the oil pipe is connected with the hot oil box through an oil pump pipeline;

waste material stoving mechanism still includes solar energy heating member, solar energy heating member includes the solar rack body, be equipped with a plurality of solar energy pipes on the solar energy stoving rack body, solar energy heating member still includes the hot exchange pipe of pipe connection solar energy pipe, hot exchange pipe sets up in waste material conveying frame, be equipped with the heat exchange hole that heat supply exchange pipe passed on the lateral wall of waste material conveying frame.

The utility model has the beneficial effects that:

1. the drying part is arranged on the side wall of the waste conveying frame, heat is conveyed to the interior of the waste conveying and drying belt in a heating gas mode, so that waste soil on the waste conveying and drying belt is heated by the heat gas, further, the water loss in the waste soil is accelerated, the effect of rapid drying is achieved, meanwhile, the waste conveying and easy-drying belt is heated in multiple heating modes of solar heating, oil heating and air heating, and the overall drying efficiency is further improved;

2. the waste materials laid on the waste material conveying and drying belt are turned in an automatic turning mode, so that the waste material soil accumulated at the bottom and the top are replaced, the contact area of the waste material soil and air is increased, the moisture in the waste material soil is rapidly lost, and the drying efficiency of the waste material soil is improved; the material turning rod is arranged on the material turning frame body, and the material turning frame body is driven by a motor to move, so that the material turning rod is driven to move in the moving process of the material turning frame body, and the function of automatic material turning is achieved;

3. through the setting of the automatic piece that rolls of waste material that adopts, set up waste material conveying frame into two sections, including preceding stage conveying frame and back level conveying frame, the waste material soil who places on the preceding stage conveying frame conveys on the back level conveying frame, utilizes the height drop between preceding stage conveying frame and the back level conveying frame to carry out automatic stirring, and the top of preceding stage conveying frame and back level conveying frame is in on the same water flat line, and then the operation of the whole waste material soil of being convenient for.

Drawings

FIG. 1 is a schematic overall structure diagram of an embodiment of the present application;

FIG. 2 is a schematic view of a portion of a waste storage bin according to an embodiment of the present disclosure;

FIG. 3 is a schematic view of the internal structure of the uniform spreading bin according to the embodiment of the present application;

FIG. 4 is a schematic diagram of an overall structure for embodying a uniform-spread tooth according to an embodiment of the present application;

FIG. 5 is a schematic cross-sectional view of a waste conveyor rack and a drying cabinet according to an embodiment of the present disclosure;

FIG. 6 is a top plan view of the overall construction of a solar heating element according to an embodiment of the present application;

FIG. 7 is a schematic overall structure diagram of an automatic material turning part according to an embodiment of the application;

fig. 8 is a partial schematic view of a waste material automatic tumbling unit according to an embodiment of the present application.

Wherein, 1, a waste storage mechanism; 11. a waste storage bin; 12. a waste conveyance member; 121. a scrap conveyor belt; 13. a waste crushing member; 131. a crushing roller; 132. crushing the shaft sheet; 2. a waste transport mechanism; 21. a waste material transfer rack; 211. a preceding stage transport frame; 212. a rear stage conveying frame; 22. a waste material conveying and drying belt; 24. a drying duct; 3. a waste drying mechanism; 31. drying the box body; 32. drying the workpiece; 33. a heating element; 34. a drying fan; 35. a drying channel; 36. a heating assembly; 361. an oil pipe; 362. a hot oil tank; 37. a solar heating element; 371. a solar tube; 372. a heat exchange tube; 373. a heat exchange hole; 4. a waste treatment mechanism; 41. automatically turning the material; 411. a material turning frame body; 412. a material turning rod; 413. turning over a material shovel; 42. a waste automatic tumbling element; 421. a material turning slope; 423. a material turning roller; 43. an adjustment member; 431. adjusting a rod; 44. a moving member; 441. a pulley; 442. a slide rail; 5. uniformly spreading the parts; 51. uniformly spreading the bins; 52. uniformly paving rollers; 53. uniformly spreading handles; 54. the teeth are paved.

Detailed Description

In order to enhance the understanding of the present invention, the present invention will be described in further detail with reference to the following examples, which are provided for the purpose of illustration only and are not intended to limit the scope of the present invention.

Example (b):

refer to fig. 1, for a fungus class waste material regeneration treatment production line that this application discloses, including waste storage mechanism 1, waste material transport mechanism 2, waste material stoving mechanism 3 and waste material processing mechanism 4, to retrieve branch fungus class waste material soil and store through waste storage mechanism 1, and carry through waste material transport mechanism 2 to the waste material soil of storing and dry, adopt waste material stoving mechanism 3 to carry out drying process to the waste material soil that the waste material was carried simultaneously, and then make waste material soil's stoving speed accelerate, improve holistic drying efficiency, carry out the stirring through setting up waste material processing mechanism 4 to the waste material soil of conveying at last, further accelerate waste material soil and the area of contact of air, and then make waste material soil's drying efficiency obtain improving.

Referring to fig. 1 and 2, the waste storage mechanism 1 includes a waste storage bin 11 for temporarily storing soil, a waste conveying member 12 is disposed at the bottom of the waste storage bin 11, a feeding outlet is disposed at the bottom of the waste storage bin 11, the waste conveying member 12 is disposed at the bottom of the feeding outlet, the waste conveying member 12 includes a waste conveying frame and a waste conveying belt 121, and further includes a waste conveying motor for driving the waste conveying belt 121 to rotate, and the waste conveying member 12 further includes a support frame disposed at the bottom of the waste conveying belt 121.

The waste material is stored and is equipped with the broken piece of waste material 13 that breaks up in advance to the waste material in the storehouse 11, because waste material soil piles up in the storehouse 11 is stored to the waste material, consequently soil extrudees the blocking under the influence of action of gravity, consequently sets up the broken piece of waste material 13 and handles the piece that waste material soil goes on for waste material soil is in the state of all spreading at public stoving in-process, and then accelerates waste material soil's stoving speed. Waste material crushing piece 13 includes that a plurality of rotations set up the crushing roller 131 in storing the storehouse, all is provided with broken axle piece 132 on a plurality of crushing rollers 131 for drive broken axle piece 132 when crushing roller 131 rotates and rotate in step, and then take to waste material soil crushing effect, therefore the waste material is broken still including driving a plurality of crushing roller 131 pivoted broken motors.

Referring to fig. 1 to 4, the waste soil transferred by the waste transport member 12 is transferred to the waste transport mechanism 2, and the waste transport mechanism 2 is used to deposit the waste soil, and the waste soil is uniformly spread on the waste transport mechanism 2, so that the waste soil is sufficiently contacted with the air. Waste material transport mechanism 2 includes waste material conveying frame 21, waste material conveying drying belt 22 and waste material conveying motor, one side of being connected with waste material conveying 12 on waste material conveying frame 21 is equipped with all spreads a 5, utilize all to spread a 5 and make even the laying on waste material drying belt of waste material soil, all spread a 5 including all spreading storehouse 51, all spread all to be provided with the equal roller 52 that paves that a plurality of rotations set up in the storehouse 51, all spread and be equipped with on the lateral wall of storehouse 51 and drive the equal motor that paves of roller 52 pivoted, all be provided with on the lateral wall of spreading roller 52 and all spread tooth 54, utilize all to spread the motor and drive all to spread roller 52 and rotate, make the equal tooth 54 that paves that sets up on the lateral wall of all spreading roller 52 break up the processing to waste material soil, be provided with all on the lateral wall of all spreading roller 52 simultaneously and spread handle 53, utilize the setting of all paving handle 53, further improve the effect of breaking up to waste material soil. The bottom of all spreading storehouse 51 simultaneously is provided with the discharge gate, and the bottom of discharge gate is equipped with evenly distributed's all spreading tooth 54, and waste material soil is laid on waste material conveying drying belt 22 from all spreading tooth 54, starts waste material conveying motor and drives waste material conveying drying belt 22 and remove for waste material soil evenly lays on waste material conveying drying belt 22, and then makes waste material soil fast drying.

Referring to fig. 5, the waste drying mechanism 3 includes a drying box 31 disposed on one side of the waste conveying frame 21, a drying channel 35 connected to the waste conveying frame 21 is disposed on a side wall of the drying box 31, a drying part 32 for generating drying gas is disposed in the drying box 31, the drying part 32 includes a heating element 33, a drying fan 34 and a drying pipe 24, a drying hole 25 for the drying pipe 24 to penetrate is disposed on the side wall of the waste conveying frame 21, the drying pipe 24 is disposed in a plurality of drying channels 35, the heating element 33 is used for generating heat, then the drying fan 34 blows the generated heat into the drying pipe 24, the heat is conveyed to the bottom of the waste conveying and drying belt 22 by the drying pipe 24, the heating effect of the waste conveying and drying belt 22 is achieved, and the drying speed of waste soil on the waste conveying and drying belt 22 is increased.

The heating assembly 36 includes an oil pipe 361 disposed through the drying duct 24, the heating assembly 36 further includes a hot oil tank 362 disposed in the drying cabinet 31, a heating iron ring is disposed in the hot oil tank 362, heat generated by the heating iron ring is used for absorbing the hot oil in the hot oil tank 362, the oil pipe 361 is connected to the hot oil tank 362 through an oil pump pipeline, a portion of the oil pipe 361 is disposed at the bottom of the waste material conveying drying belt 22, the oil pump is used for conveying the hot oil heated in the hot oil tank 362 to the hot oil pipe 361, so that the oil pipe 361 completes heat exchange treatment in the waste material conveying drying belt 22, and the drying speed of waste material soil on the waste material conveying drying belt 22 is further increased.

Referring to fig. 5 and 6, the waste drying mechanism 3 further includes a solar heating element 37, the solar heating element 37 includes a solar frame body and a plurality of solar tubes 371, the solar tubes 371 are disposed on the solar frame body, the solar heating element 37 further includes a heat exchange tube 372 and a delivery pump which are connected with the solar tubes 371 through pipelines, a heat exchange hole through which the heat supply exchange tube 372 passes is disposed on the side wall of the waste conveying frame 21, the heat exchange tube 372 is disposed in the waste conveying frame 21, heated water is delivered to the heat exchange tube 372 through the delivery pump, so that the heat exchange tube 372 exchanges heat with waste soil in the waste conveying frame 21, and further the effect of rapidly drying the waste soil is achieved.

Referring to fig. 1 to 7, the waste disposal mechanism 4 includes an automatic turning member 41 and a waste automatic turning member 42, the automatic turning member 41 includes a turning frame body 411 slidably disposed on the waste conveying frame 21, and the waste frame body is provided with a plurality of vertically disposed turning rods 412. Be provided with moving member 44 on the waste material support body, moving member 44 includes moving motor and rotates the pulley 441 that sets up on stirring support body 411 inner wall, the length direction both sides of waste material conveying frame 21 are provided with the rolling slide rail 442 of confession pulley 441 simultaneously, utilize moving motor to drive pulley 441 and rotate, make stirring support body 411 parallel translation on waste material conveying frame 21, a plurality of stirring poles 412 that are equipped with on the waste material support body simultaneously follow the removal, make a plurality of stirring poles 412 carry out the stirring to waste material soil automatically and handle, the drying speed of the waste material soil of further improvement.

Referring to fig. 1 to 7, the material turning shovels 413 are fixedly arranged at the bottoms of the material turning rods 412, and the waste soil on the waste conveying and drying belt 22 is turned by the material turning shovels 413, so that the material turning effect on the waste soil is improved. The turning frame body 411 is provided with an adjusting piece 43 for driving the turning rod 412 to adjust up and down, the adjusting piece 43 comprises an adjusting rod 431 which is horizontally arranged, the turning rods 412 are fixedly arranged on the adjusting rod 431, the adjusting piece 43 further comprises an adjusting motor for driving the adjusting rod 431 to move up and down, and the adjusting motor is used for driving the adjusting rod 431 to move up and down, so that the turning rod 412 works at the optimal height.

Referring to fig. 1 to 8, the waste material transporting rack 21 includes a front-stage transporting rack 211 and a rear-stage transporting rack 212, the waste material automatic rolling component 42 includes a material turning slope 421 disposed at an input end of the rear-stage transporting rack 212, the waste material automatic rolling component 42 further includes a material turning roller 423 disposed at a bottom of the front-stage transporting rack 211, the material turning roller 423 is disposed at a bottom of a discharge end of the front-stage transporting rack, the front-stage transporting rack 211 and the rear-stage transporting rack 212 form a height drop at a joint by the material turning slope 421, meanwhile, the waste material transporting and drying belt 22 includes a front-stage transporting belt and a rear-stage transporting belt, when the front-stage transporting belt transports waste material soil, the waste material soil on the front-stage transporting belt will automatically fall on the rear-stage transporting belt, so as to achieve a technical effect of integral material turning, and the waste material is transported continuously through the material turning slope 421.

The above embodiments should not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent transformations fall within the protection scope of the present invention.

Claims

1. The utility model provides a fungus waste material regeneration treatment production line which characterized in that: comprises a waste storage mechanism (1), a waste conveying mechanism (2), a waste drying mechanism (3) and a waste treatment mechanism (4);

the waste storage mechanism (1) is used for temporarily storing recycled waste soil, the waste storage mechanism (1) comprises a waste storage bin (11), the waste storage mechanism (1) further comprises a waste conveying piece (12) arranged at the bottom of the waste storage bin (11), and a waste crushing piece (13) for pre-scattering waste is arranged in the waste storage bin (11);

the waste conveying mechanism (2) comprises a waste conveying frame (21), a waste conveying and drying belt (22) and a waste conveying motor, and the waste conveying piece (12) is used for conveying waste soil onto the waste conveying and drying belt (22);

the waste drying mechanism (3) comprises a drying box body (31) arranged on one side of a waste conveying frame (21), a drying piece (32) used for generating drying gas is arranged in the drying box body (31), the drying piece (32) comprises a heating element (33) arranged in the drying box body (31), and further comprises a drying fan (34) arranged in the drying box body (31), a drying pipe (24) is arranged on the side wall of the drying box body (31), and a drying hole (25) for the drying pipe (24) to penetrate through is formed in the side wall of the waste conveying frame (21);

waste material processing mechanism (4) are including automatic stirring spare (41) and waste material automatic stirring spare (42), automatic stirring spare (41) are including sliding stirring support body (411) of setting on waste material conveying frame (21), still including setting up stirring pole (412) on stirring support body (411), waste material automatic stirring spare (42) are including stirring slope (421).

2. The mushroom waste recycling line according to claim 1, wherein: be provided with on stirring frame body (411) and drive regulating part (43) that stirring pole (412) were adjusted from top to bottom, regulating part (43) are including regulation pole (431) that the level set up, stirring pole (412) are provided with a plurality ofly, and are a plurality of stirring pole (412) are fixed to be set up on adjusting pole (431), regulating part (43) still are including driving the adjusting motor who adjusts pole (431) and reciprocate.

3. The mushroom waste recycling line according to claim 2, wherein: the turning frame body (411) is further provided with a moving member (44) used for driving the turning frame body (411) to move, the moving member (44) comprises a moving motor and a pulley (441) rotatably arranged on the inner wall of the turning frame body (411), the moving motor is used for driving the pulley (441) to rotate, and two sides of the waste conveying frame (21) in the length direction are provided with sliding rails (442) for the pulley (441) to roll;

the bottom of the material turning rod (412) is fixedly provided with a material turning shovel (413).

4. The mushroom waste recycling line according to claim 1, wherein: waste material conveying frame (21) includes preceding stage conveying frame (211) and back level conveying frame (212), stirring slope (421) set up the input in back level conveying frame (212), waste material automatic tumbling (42) still including setting up stirring roller (423) in preceding stage conveying frame (211) bottom, waste material conveying drying belt (22) include preceding stage conveyer belt and back level conveyer belt, the back level conveyer belt sets up on stirring roller (423), preceding stage conveying frame (211) are located same horizontal line with back level conveying frame (212) top.

5. The mushroom waste recycling line according to claim 1, wherein: be equipped with on waste material conveying drying belt (22) and carry out the equal piece (5) of spreading that all spread the processing to waste material soil, all spread piece (5) including all spreading storehouse (51), all be provided with in spreading storehouse (51) and all spread roller (52), all spread storehouse (51) and set up at waste material conveying frame (21) top, all spread piece (5) still including setting up all spreading the motor in all spreading storehouse (51).

6. The mushroom waste recycling line according to claim 5, wherein: the outer side wall of the uniform spreading roller (52) is provided with a uniform spreading handle (53), the bottom of the uniform spreading bin (51) is provided with a discharging port, uniformly distributed uniform spreading teeth (54) are arranged at the bottom of the discharging port, and the uniform spreading teeth (54) are arranged at the top of the waste conveying and drying belt (22).

7. The mushroom waste recycling line according to claim 1, wherein: the waste conveying piece (12) comprises a waste conveying belt (121) and a supporting frame arranged at the bottom of the waste conveying belt (121), and the waste conveying piece (12) further comprises a motor used for driving the waste conveying belt (121).

8. The mushroom waste recycling line according to claim 7, wherein: the waste material crushing piece (13) comprises a plurality of crushing rollers (131) which are rotatably arranged in a storage bin, a plurality of crushing shaft pieces (132) are arranged on the crushing rollers (131), and the waste material crushing piece also comprises a crushing motor which drives the plurality of crushing rollers (131) to rotate.

9. The mushroom waste recycling line according to claim 1, wherein: a plurality of drying pipes (24) are arranged, a drying channel (35) for placing the drying pipes (24) is further arranged on the outer side wall of the drying box body (31), and the drying channel (35) is communicated with the waste conveying frame (21) and the drying box body (31);

the drying box body (31) is also internally provided with a heating assembly (36), the heating assembly (36) comprises an oil pipe (361) arranged in the drying pipe (24) in a penetrating way, the heating assembly (36) further comprises a hot oil tank (362) arranged in the drying box body (31), and the oil pipe (361) is connected with the hot oil tank (362) through an oil pump pipeline;

waste material stoving mechanism (3) still include solar energy stoving (32), solar energy stoving (32) include the solar rack body, be equipped with a plurality of solar tubes (371) on the solar energy stoving support body, solar energy heating member (37) still include hot exchange pipe (372) of pipe connection solar tube (371), hot exchange pipe (372) set up in waste material conveying frame (21), be equipped with heat exchange hole (373) that heat supply exchange pipe (372) passed on the lateral wall of waste material conveying frame (21).